Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
High-speed projectile perforation of nickel-based Inconel 718 superalloy plates: Experiments and modeling
Abstract Understanding ballistic behavior of structural materials is important for their applications in aeronautical and astronautical industries. We investigate perforation of 2-mm thick Inconel 718 superalloy plates by spherical stainless steel 304 projectiles with high-speed photography at impact velocities ranging from 548 ms−1 to 1360 ms−1. Postmortem target samples are characterized with optical metallography, scanning electron microscopy and electron backscatter diffraction as regards bullet hole morphology and deformation. Grain refinement and shear banding are the main microstructural deformation modes near the bullet holes. Shear dominated deformation and tension–shear dominated deformation of target material occur sequentially in bullet hole along the impact direction. The morphologies of bullet holes and postmortem projectiles are obtained from the experiments and simulations. The effect of projectile deformation on ballistic behavior of the target is investigated. On the basis of dimensional analysis, a quadratic relation is derived between the energy absorption ratio of target and the dimensionless postmortem projectile diameter, along with a phenomenological model that can well predict projectile residual velocities.
Highlights Ballistic impacts are conducted on nickel-based Inconel 718 superalloy plates. Deformation mode transition of target material is observed from fracture morphology. The energy absorption behavior of target for non-rigid perforation is investigated. A predicting model of residual velocity for non-rigid perforation is derived.
High-speed projectile perforation of nickel-based Inconel 718 superalloy plates: Experiments and modeling
Abstract Understanding ballistic behavior of structural materials is important for their applications in aeronautical and astronautical industries. We investigate perforation of 2-mm thick Inconel 718 superalloy plates by spherical stainless steel 304 projectiles with high-speed photography at impact velocities ranging from 548 ms−1 to 1360 ms−1. Postmortem target samples are characterized with optical metallography, scanning electron microscopy and electron backscatter diffraction as regards bullet hole morphology and deformation. Grain refinement and shear banding are the main microstructural deformation modes near the bullet holes. Shear dominated deformation and tension–shear dominated deformation of target material occur sequentially in bullet hole along the impact direction. The morphologies of bullet holes and postmortem projectiles are obtained from the experiments and simulations. The effect of projectile deformation on ballistic behavior of the target is investigated. On the basis of dimensional analysis, a quadratic relation is derived between the energy absorption ratio of target and the dimensionless postmortem projectile diameter, along with a phenomenological model that can well predict projectile residual velocities.
Highlights Ballistic impacts are conducted on nickel-based Inconel 718 superalloy plates. Deformation mode transition of target material is observed from fracture morphology. The energy absorption behavior of target for non-rigid perforation is investigated. A predicting model of residual velocity for non-rigid perforation is derived.
High-speed projectile perforation of nickel-based Inconel 718 superalloy plates: Experiments and modeling
Thin-Walled Structures ; 192
05.09.2023
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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